Self-assembly of Ni-NTA-modified β-annulus peptides into artificial viral capsids and encapsulation of His-tagged proteins | Zendy

Kazunori Matsuura | Zendy; Tomohiro Nakamura | Zendy; K. Watanabe | Zendy; Takanori Noguchi | Zendy; Kosuke Minamihata | Zendy; Noriho Kamiya | Zendy; Nobuo Kimizuka | Zendy

Open Access

Self-assembly of Ni-NTA-modified β-annulus peptides into artificial viral capsids and encapsulation of His-tagged proteins

Author(s) -

Kazunori Matsuura,

Tomohiro Nakamura,

K. Watanabe,

Takanori Noguchi,

Kosuke Minamihata,

Noriho Kamiya,

Nobuo Kimizuka

Publication year - 2016

Publication title -

organic and biomolecular chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.923

H-Index - 146

eISSN - 1477-0539

pISSN - 1477-0520

DOI - 10.1039/c6ob01227b

Subject(s) - chemistry , capsid , nanocapsules , peptide , tris , chromatography , biophysics , nanoparticle , biochemistry , nanotechnology , materials science , biology , gene

β-Annulus peptides bearing Cys at the N-terminal from tomato bushy stunt virus were synthesised using a standard Fmoc-protected solid-phase method, and the peptide was modified with Ni-NTA at the N-terminal. The Ni-NTA-modified β-annulus peptide self-assembled into virus-like nanocapsules of approximately 40 nm in diameter. The critical aggregation concentration of these nanocapsules in 10 mM Tris-HCl buffer (pH 7.3) at 25 °C was 0.053 μM, which is 470 times lower than that of unmodified β-annulus peptides. Moreover, size exclusion chromatography of the peptide assembly indicated encapsulation of His-tagged green fluorescent protein in the Ni-NTA-modified artificial viral capsid.

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